A method for operating a drive system of a hybrid vehicle is provided, which comprises reserving, by a controller of the drive system of the hybrid vehicle, electrical energy stored in a traction battery of the drive system and intended for an electrical heating of a catalyst of the drive system. A controller for a drive system of a hybrid vehicle to carry out such a method is also provided.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for operating a drive system of a hybrid vehicle, comprising: determining, by a controller the drive system of the hybrid vehicle, first reserved electrical energy intended for a first electrical heating of a catalyst of the drive system based on a difference between a first starting temperature of a catalyst of the drive system prior to the first electrical heating of the catalyst of the drive system and a working temperature of the catalyst of the drive system; reserving, by the controller of the drive system of the hybrid vehicle, the first reserved electrical energy among stored electrical energy stored in a traction battery of the drive system and intended for the first electrical heating of the catalyst of the drive system; determining, by the controller of the drive system of the hybrid vehicle, second reserved electrical energy intended for a second electrical heating of the catalyst of the drive system based on a difference between a second starting temperature of the catalyst of the drive system prior to the second electrical heating of the catalyst of the drive system and the working temperature of the catalyst of the drive system; and reserving, by the controller of the drive system of the hybrid vehicle, the second reserved electrical energy among stored electrical energy stored in the traction battery of the drive system and intended for the second electrical heating of the catalyst of the drive system, wherein the first starting temperature of the catalyst of the drive system is different from the second starting temperature of the catalyst of the drive system, and wherein the first reserved electrical energy is different from the second reserved electrical energy.
2. The method according to claim 1, wherein the first reserved electrical energy or the second reserved electrical energy is determined based on current or forecast weather data.
3. The method according to claim 2, further comprising: receiving, by a communication system of the hybrid vehicle, the current or forecast weather data.
4. The method according to claim 1, wherein the first reserved electrical energy or the second reserved electrical energy is determined based on data regarding a parking situation of the hybrid vehicle at a destination.
5. The method according to claim 1, wherein the first reserved electrical energy or the second reserved electrical energy is determined based on a planned departure time of the hybrid vehicle for a subsequent trip.
6. The method according to claim 4, further comprising: receiving, by an infotainment system of the hybrid vehicle, data regarding the parking situation.
7. The method according to claim 5, further comprising: receiving, by an infotainment system of the hybrid vehicle, data regarding the planned departure time.
8. The method according to claim 1, wherein the first reserved electrical energy or the second reserved electrical energy is determined during a trip of the hybrid vehicle based on a distance of the hybrid vehicle from a destination of the trip as provided by a navigation system of the hybrid vehicle.
9. The method according to claim 8, wherein the first reserved electrical energy or the second reserved electrical energy is determined to increase with decreasing distance.
10. A controller for a drive system of a hybrid vehicle including a traction battery and an electrically-heatable catalyst, the controller adapted to control the drive system of the hybrid vehicle to carry out a method comprising: determining, by a controller the drive system of the hybrid vehicle, first reserved electrical energy intended for a first electrical heating of a catalyst of the drive system based on a difference between a first starting temperature of a catalyst of the drive system prior to the first electrical heating of the catalyst of the drive system and a working temperature of the catalyst of the drive system; reserving, by the controller of the drive system of the hybrid vehicle, the first reserved electrical energy among stored electrical energy stored in the traction battery of the drive system and intended for the first electrical heating of the catalyst of the drive system; determining, by the controller of the drive system of the hybrid vehicle, second reserved electrical energy intended for a second electrical heating of the catalyst of the drive system based on a difference between a second starting temperature of the catalyst of the drive system prior to the second electrical heating of the catalyst of the drive system and the working temperature of the catalyst of the drive system; and reserving, by the controller of the drive system of the hybrid vehicle, the second reserved electrical energy among stored electrical energy stored in the traction battery of the drive system and intended for the second electrical heating of the catalyst of the drive system, wherein the first starting temperature of the catalyst of the drive system is different from the second starting temperature of the catalyst of the drive system, and wherein the first reserved electrical energy is different from the second reserved electrical energy.
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October 27, 2022
May 13, 2025
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